The requirements of this code have been widely implemented into national and international
Regulations and company standards specifically for hydrogen vessels / tubes and cylinders have been broadcast.

During the implementation process the recommendations have required a significant commitment of human, manufacturing and financial resources. In addition, during the implementation-phase there was disruption of the supply of hydrogen to the consumer which significantly increased unit costs.

The recommendations of the working group are based on a combination of operating experience and on- going experimental work.

Gas Storage

Optionally a pressurized hydrogen storage system is installed. The size and pressure of the storage vessels will depend on individual requirements for an optimized technical and economical solution.

Deoxidiser & Dryer

From the gas scrubber, the hydrogen has a purity of 99.9%. If a higher purity level is required, the gas must be further purified.

Scope

To formulate hydrogen-specific references regarding design, material, manufacturing, testing, use and re-testing of seamless high pressure hydrogen vessels for use.

− Individually − On trailers.

Features:

Reliable Production
Variety Of Applications
High Flexibility
Upscale Of Capacity

Cost-Efficient Solution

The internal surface shall be inspected, to ensure that it is free from the following defects:
- sharp-notched fissures
- pickling or corrosion pits
- laps or folds
- cracks
- scaling
- other injurious defects

Hydrogen vessel:
The safe design, installation, operation, and maintenance of hydrogen gas vessels in accordance with the appropriate codes and standards are essential to worker safety and health.

Safety and Fittings:

High Pressure Safety :

Includes modules on pumps and compressors, hydrogen safety, and fittings and equipment.
Pressure Consultation

Hydrogen Storage Tank:

Hydrogen can be stored in several different forms. It can be stored in tanks as compressed gas or cryogenic liquid, or it can be stored in other materials by the processes of adsorption and absorption.

Hydrogen transport tank:

At the low density of hydrogen also that pipeline distribution of compressed hydrogen gas is less efficient than a similar natural gas pipeline. Addition of Hydrogen accelerates the cracking of steel, which increases maintenance costs, leakage rates, and material costs.
For the transport of hydrogen gas well-established pipeline installations do exist.

Pressurized containers used to transport hydrogen gas, at pressures up to 250 atmospheres, on ships, lorries, and trains etc.

Liquid Hydrogen Tanks and Compressed Gas

The tanks are much larger and heavier than desired, and as such, researchers are currently evaluating new materials to reduce the weight and volume of these systems.
Liquefied hydrogen is denser than gaseous hydrogen, meaning that liquid tanks can store more hydrogen. It takes energy to liquefy hydrogen, and the insulation required affects the weight and volume of the hydrogen that can be stored. Current research is leading toward a concept called hybrid tanks, in which high pressure hydrogen is stored under cryogenic conditions, allowing for more compact storage.

Advantages

1. Most Alternative of the alternative fuels.
2. Uses energy more efficiently and more convenient.

Hydrogen plant We also manufacturer of Hydrogen plants with applications and project commissioning

If hydrogen is stored at atmospheric pressure, its low density means that there is only about one-third as much energy per cubic metre as in natural gas. A gasometer holding the same energy reserves needs to be three times the size if hydrogen is the fuel. To reduce the storage volume needed, hydrogen must be stored in a compressed or liquefied state, or in some sort of chemical form. Hydrogen at 50 atmospheres pressure provides about 0.13 kilowatt-hours per litre, and liquid hydrogen provides 2.36 kilowatt-hours per litre.